This invention provides a post hole digger having a first, traverse pivot point, located on the medial portions of two handle members, and a second, blade assembly pivot point located at the medial point of the blade assemblies. Because the first pivot point is a traverse pivot point, the handle members are only required to travel through a limited range of motion. Additionally, the second, blade assembly pivot point is preferably an offset pivot point. Thus, because the second, blade assembly pivot point is disposed at a medial point of the blade assemblies, the motion of the handle members, which are coupled to the upper ends of the blade assemblies, is reversed relative to the lower ends of the blade members.
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1. A post hole digger comprising:
a first handle assembly having an upper end, a medial portion, and a lower end;
a second handle assembly having an upper end, a medial portion, and a lower end;
said first handle assembly pivotally coupled to said second handle assembly at a first, traverse pivot point, said first, traverse pivot point disposed on said first handle assembly medial portion and said second handle assembly medial portion;
a blade assembly having a first blade sub-assembly and a second blade sub-assembly;
said first blade sub-assembly pivotally coupled to said first handle assembly, said first blade sub-assembly having an elongated blade member having an upper end and a lower end;
said second blade sub-assembly pivotally coupled to said second handle assembly, said second blade sub-assembly having an elongated blade member having an upper end and a lower end;
said first blade sub-assembly and said second blade sub-assembly coupled together at a blade assembly pivot point, said blade assembly pivot point disposed on said first blade sub-assembly blade member upper end and said second blade sub-assembly blade member upper end;
a central longitudinal axis extending through said traverse, first pivot point and said blade assembly pivot point;
said first blade sub-assembly includes an offset tab extending from said first blade sub-assembly blade member upper end;
said second blade sub-assembly includes an offset tab extending from said second blade sub-assembly blade member upper end;
wherein said blade assembly pivot point is an offset pivot point, the axis of said blade assembly pivot point passing through said first blade sub-assembly offset tab and said second blade sub-assembly offset tab;
said first handle assembly and said second handle assembly are structured to pivot relative to each other between a first position, wherein said first handle assembly upper end and said second handle assembly upper end adjacent to each other and a second position wherein said first handle assembly upper end and said second handle assembly upper end are generally spaced from each other;
said first blade sub-assembly and said second blade sub-assembly being structured to pivot relative to each other between a first, open position and a second, closed position, and wherein when said first handle assembly and said second handle assembly are in said first position, said first blade sub-assembly and said second blade sub-assembly are in said first, open position, and, when said first handle assembly and said second handle assembly are in said second position, said first blade sub-assembly and said second blade sub-assembly are in said second, closed position; and
said first handle assembly and said second handle assembly travel between about 6.5 degrees and 10.5 degrees relative to said central longitudinal axis when moved between said first position and said second position.
2. The post hole digger of
3. The post hole digger of
said first blade sub-assembly blade member is elongated and has a longitudinal axis;
said second blade sub-assembly blade member is elongated and has a longitudinal axis;
said first blade sub-assembly includes an elongated blade base having a longitudinal axis, said first blade sub-assembly blade base longitudinal axis being angled relative to said first blade sub-assembly blade member longitudinal axis; and
said second blade sub-assembly includes an elongated blade base having a longitudinal axis, said second blade sub-assembly blade base longitudinal axis being angled relative to said second blade sub-assembly blade member longitudinal axis.
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This application is a continuation of U.S. patent application Ser. No. 11/400,551, filed Apr. 7, 2006, now U.S. Pat. No. 7,461,880 and entitled “Post Hole Digger,” and is hereby incorporated into the present application by reference.
1. Field of the Invention
This invention relates to a post hole digger and, more specifically, to a post hole digger having a traverse pivot point coupling two handle assemblies to each other, a blade assembly having two blade members, each blade member pivotally coupled to one handle assembly, and an offset pivot point coupling the two blade members to each other.
2. Background Information
A post hole digger is structured to dig a hole having a generally narrow cross-sectional area relative to the depth of the hole. The hole was typically dug in a compacted particulate or granulated material, hereinafter “the ground.” The material removed from the hole shall be referred to as “the dirt.” The dirt was, typically, a loose granulate material. Preferably, the post hole had a greater cross-sectional area that a post that was inserted therein. A portion of the loose dirt, or another material such as concrete, was then reinserted into the annulus, or gap, between the post and the ground. Because the compacted ground was more firm than the loose dirt, and therefore provided better support for the post, it was desirable to have as narrow of a hole as possible. Thus, one factor in the design of a post hole digger was the span of the post hole digger during insertion and, especially, during removal. Keeping in mind that a worker must cyclically operate a manual post hole digger, other important factors related to how a worker interacted with the tool. Such factors included, but were not limited to, the weight of the post hole digger, the force required to operate the post hole digger, the amount of dirt collected during each cycle, and the range of motion through which a worker must act during each cycle. For example, a post hole digger with longer handles typically had a longer lever arm and, therefore, provided a greater closing force on the blade members. However, the handles may not be too long as the tool could be too heavy to lift repeatedly and/or too unwieldy to use comfortably.
Manual post hole diggers generally had two elongated handles with each handle having an upper hand grip portion and a blade coupled to a lower end. The handles or blades were pivotally coupled to each at a single pivot point. The blades moved between a first, open position and a second, closed position that corresponded to a first and second handle position. When the blades were in the first, open position a user thrust the post hole digger toward the ground and caused the blades to bite into the ground. To maximize the force of the bite, the blades were generally perpendicular to the ground when they were in the first, open position. To further maximize the force of the bite, the handles were generally vertically aligned with the blades so that substantially all of the worker's effort (force) was directed directly through the blades and into the ground. This configuration further allowed the worker to position his/her hands and wrists in a comfortable position, generally parallel to the ground. After the blades engaged the ground, the worker moved the handles into the second position thereby causing the blades to move into the second, closed position. During this motion, the dirt is separated from the ground. The closing force acting on the blades is related to the force applied to the handles. The force applied to the handles was enhanced by the length of the lever arm created by the length of the handle. After the blades have been closed, the worker, while holding the blades in the second, closed position, lifts the post hole digger thereby removing the dirt from the hole.
The quantity of dirt held by the blades is controlled by the shape of the blades and the nature of the dirt. Typically, the blades are elongated and have an arcuate cross-sectional shape. The blades were commonly somewhat pointed and the edges were shaped so that, when the blades were in the second, closed position, the blades substantially enclosed a quantity of dirt. The shape of the blades was also related to the configuration of the pivot point and the handles. That is, for example, if the blades were spaced far apart, e.g. to engage a greater quantity of dirt, the handles would have to travel through a greater arc in order to close the blades. A greater arc requires a wider hole and more effort by the worker. Lengthening the blades would reduce the amount of travel required to close the blades, but would, in turn, reduce the relative lever arm between the blades and the handles, thus requiring a greater effort on the part of the worker.
In addition to the shape of the blades, the ease of use and usability of a post hole digger was controlled by various factors such as, but not limited to, the length and shape of the handles and the type of the pivot point. As shown in
An offset pivot post hole digger according to this configuration is easy to manufacture and is not too heavy; however, the range of motion of the handles is not suitable for a moderately deep hole. When the handles 1, 2 are in the second position, i.e. pulled apart, the span (width) of the tool increases as a function of the distance from the pivot point 5. As the pivot point 5 is disposed at the lower end of the handles 1, 2, essentially the entire length of one handle I moves away from the other handle 2. Thus, in order for the handles 1, 2 to be in the second position, the hole must be wide. Conversely, when the handles are in the first position, i.e., generally parallel, the tool is in its most narrow configuration and can be easily inserted into the hole.
A post hole digger with a traverse pivot point has a scissor-like configuration, as shown in
In this configuration, a worker uses the, typically stronger, pectoral muscles to push the handles 1A, 2A together to close the blades 3A, 4A. While this could be considered an advantage, this motion is also the opposite of the motion generally associated with a post hole digger. As such, some workers do not care for a traverse pivot point post hole digger. This configuration also has a disadvantage in that, when thrusting the tool downwardly, the worker must hold the handles 1A, 2A within a generally narrow range of separation in order for the blades 3A, 4A to be maintained generally perpendicular to the ground during the bite. Moreover, the worker's hands may be in an awkward position during the thrust. That is, on a traverse pivot point post hole digger, the worker's hands are generally at an angle relative to the ground on the down stroke.
There is, therefore, a need for a post hole digger with a limited rage of motion between the handle first position and handle second position.
There is a further need for a post hole digger having a traverse pivot point that is also structured to maintain the handles in a generally vertical and parallel orientation while the blades are in the first, open position.
These needs, and others, are met by at least one embodiment of this invention which provides a post hole digger having a first, traverse pivot point, located on the medial portions of two handle members, and a second, blade assembly pivot point located at the medial point of the blade assemblies. Because the first pivot point is a traverse pivot point, the handles are only required to travel through a limited range of motion. Additionally, the second blade assembly pivot point is preferably an offset pivot point. Thus, because the second, blade assembly pivot point is disposed at a medial point of the blade assemblies, the motion of the handle members, which are coupled to the upper ends of the blade assemblies, is reversed relative to the lower ends of the blade members. In this configuration, the handle member's first position, which corresponds to the blade assembly open position, is in the preferred generally vertical and parallel orientation. Further, once the post hole digger has engaged the ground, a worker uses the preferred pulling apart motion on the handles to move the blade assembly into the second, closed position. Additionally, the post hole digger may utilize a hand ledge disposed at the upper end of each handle as a stop member. That is, each hand ledge extends toward the opposite handle and is sized to abut the opposing hand ledge when the handles are generally parallel to each other. Thus, a worker does not have to manually maintain the position of the handle members as with the prior art traverse pivot point post hole diggers. As an added advantage, the hand ledges also help to resist the workers hands slipping upwardly on the handles when the worker lifts the post hole digger out of the hole.
A full understanding of the invention can be gained from the following description of the preferred embodiments when read in conjunction with the accompanying drawings in which:
As used herein an “offset pivot point” shall mean a configuration wherein each handle and associated blade may be, and generally are, disposed on the same side of the pivot point, the pivot point being located on one or more structures extending toward the opposing handle/blade.
As used herein a “traverse pivot point” shall mean a scissor-like configuration wherein two members cross over each other with the pivot point extending through the point of intersection.
As used herein, “coupled” means a link between two or more elements, whether direct or indirect, so long as a link occurs.
As used herein, “directly coupled” means that two elements are directly in contact with each other.
As used herein directional words, such as, but not limited to, “upper” and “lower” shall be used in relation to the Figures and are not limiting upon the claims.
As shown in
The first handle assembly 20 includes an elongated handle member 22 having an elongated, upper portion 24, a medial portion 26, and a lower portion 28. The first handle assembly handle member upper portion 24 has an upper end 30. The first handle assembly lower portion 28 has a lower end 32. The first handle assembly upper portion 24 has a longitudinal axis 25. The first handle assembly medial portion 26 has a longitudinal axis 27. The first handle assembly lower portion 28 has a longitudinal axis 29. The first handle assembly medial portion 26 has a pivot opening 34 extending generally perpendicular to the first handle assembly medial portion longitudinal axis 27. The first handle assembly lower end 32 has a first blade sub-assembly pivot opening 36 extending generally perpendicular to the first handle assembly lower portion longitudinal axis 29.
As shown in
The blade assembly 40 includes a first blade sub-assembly 50 and a second blade sub-assembly 50A. As with the first and second handle assemblies 20, 20A, the first blade sub-assembly 50 and second blade sub-assembly 50A are substantially similar and mirror images of each other. As such, only the elements of the first blade sub-assembly 50 will be described in detail below. It is understood that that the second blade sub-assembly 50A includes substantially similar elements. Elements of the second blade sub-assembly 50A shall use the same reference numbers as the elements of the first blade sub-assembly 50 and will be further identified with the letter “A.” For example, and as described below, the first blade sub-assembly 50 has a blade portion 51. Thus, the second blade sub-assembly 50A has a blade portion 51A.
As shown in
As shown on
The first blade sub-assembly 50 and the second blade sub-assembly 50A are directly coupled to each other at a blade assembly pivot point 90. The blade assembly pivot point 90 is disposed at the interface between the first blade sub-assembly offset tabs 62 and the second blade sub-assembly offset tabs 62A. That is, when the first blade sub-assembly blade portion 51 and the second blade sub-assembly blade portion 51A are positioned opposite of and facing each other, the first blade sub-assembly offset tabs 62 and the second blade sub-assembly offset tabs 62A extend toward and overlap each other so that the first blade sub-assembly offset tab openings 66 generally align with the second blade sub-assembly offset tab openings 66A. The blade assembly pivot point 90 is created by separate pivot pins 92 extending through each set of aligned offset tab openings 66 and 66A.
To resist creating torque about the central longitudinal axis 100, described below, it is desirable to have the first and second handle assembly handle member upper portions 24, 24A disposed in the same general plane. As the first and second handle assembly handle member medial portions 26, 26A are pivotally coupled together, and therefore cannot be in the same plane, each handle assembly handle member 22, 22A may include a lateral transition section 94, 94A. That is, as shown in
When the post hole digger 10 is assembled, the first handle assembly handle member 22 is pivotally coupled to the second handle assembly handle member 22A by a pivot pin 12 extending through the first handle assembly medial portion pivot opening 34 as well as the second handle assembly medial portion pivot opening 34A. The first handle assembly handle member 22 and the second handle assembly handle member 22A are oriented so as to generally be mirror images of each other. In this configuration, the first handle assembly handle member 22 and the second handle assembly handle member 22A cross over each other at the location of the first and second handle assembly medial portion pivot opening 34, 34A. Thus, this pivot point is a traverse, first pivot point 14.
The blade assembly 40 is pivotally coupled to the first and second handle assemblies 20, 20A. More specifically, the first blade sub-assembly 50 is pivotally coupled to the first handle assembly handle member lower end 32 by a first blade sub-assembly pivot pin 49. The first blade sub-assembly pivot pin 49 extends through the first blade sub-assembly clevis 82 as well as the first handle member first blade sub-assembly pivot opening 36. Similarly, the second blade sub-assembly 50A is pivotally coupled to the second handle assembly handle member lower end 32A by a second blade sub-assembly pivot pin 49A. The second blade sub-assembly pivot pin 49A extends through the second blade sub-assembly clevis 82A as well as the second handle member second blade sub-assembly pivot opening 36A. The first handle assembly lower end 32 is between about 6 and 10 inches, and preferably 8.0 inches, from the traverse, first pivot point 14. In this configuration, the tool assembly has a central longitudinal axis 100 extending through the traverse, first pivot point 14 and the blade assembly pivot point 90. It is further noted that, because each blade sub-assembly 50, 50A remains substantially to one side of the blade assembly pivot point 90, the blade assembly pivot point 90 is an offset pivot point.
In this configuration the first handle assembly 20 and the second handle assembly 20A are structured to pivot relative to each other between a first position, wherein the first handle assembly upper end 30 and the second handle assembly upper end 30A are generally adjacent to each other and a second position wherein the first handle assembly upper end 30 and the second handle assembly upper end 30A are generally are generally spaced from each other. As the first handle assembly 20 and the second handle assembly 20A move between the first and second positions, the first blade sub-assembly 50 and the second blade sub-assembly 50A move between a corresponding first, open position and a second, closed position. That is, the first blade sub-assembly 50 and the second blade sub-assembly 50A are structured to pivot relative to each other between a first, open position and a second, closed position wherein when the first handle assembly 20 and the second handle assembly 20A are in the first position, the first blade sub-assembly 50 and the second blade sub-assembly 50A are in the first, open position, and, when the first handle assembly 20 and the second handle assembly 20A are in the second position, the first blade sub-assembly 50 and the second blade sub-assembly 50A are in the second, closed position.
Because the first pivot point 14 is a traverse pivot point, as the first handle assembly upper end 30 and the second handle assembly upper end 30A move apart, the first handle assembly lower end 32 and the second handle assembly lower end 32A also move apart. As the first handle assembly lower end 32 and the second handle assembly lower end 32A move apart, the first blade sub-assembly clevis 82, which is coupled to the first handle assembly lower end 32, and the second blade sub-assembly clevis 82A, which is coupled to the second handle assembly lower end 32A, also move apart. Because the blade assembly pivot point 90 is an offset pivot point, as the first and second blade sub-assembly blade base body upper, first ends 72, 72A move apart, the first and second blade sub-assembly blade body lower ends 60, 60A move toward each other.
Preferably, the traverse, first pivot point 14 and the blade assembly pivot point 90 are disposed between 9.0 and 15.0 inches apart, and more preferably about 12.0 inches apart. Thus, as shown on
The handle assemblies 20, 20A may also include cooperative stop members 110, 112 structured to arrest the movement of the handle first and second members 22, 22A toward each other. In one embodiment, the cooperative stop members 110, 112 are hand ledges 120, 120A. One hand ledge 120, 120A is disposed at each handle assembly upper end 30, 30A. Thus, a first hand ledge 120 extends generally perpendicular to the longitudinal axis of the first handle assembly handle member upper portion 24 and toward the central longitudinal axis 100. Similarly, a second hand ledge 120A extends generally perpendicular to the longitudinal axis of the second handle assembly handle member upper portion 24A and toward the central longitudinal axis 100. The hand ledges 120, 120A do not extend beyond the central longitudinal axis 100 when the first and second handle assemblies 20, 20A are in the first position and, more preferably, the hand ledges 120, 120A abut each other when the first and second handle assemblies 20, 20A are in the first position.
Alternatively, a pair of cooperative stop members 110, 112 may be disposed, one each, along the middle of the first handle assembly upper portion 24 and the middle of the second handle assembly upper portion 24A. The cooperative stop members 110, 112 include a tab 130, 130A that extends generally perpendicular to the longitudinal axis of the associated handle assembly handle member upper portion 24, 24A and toward the central longitudinal axis 100. The tabs 130, 130A abut each other when the first and second handle assemblies 20, 20A are in the first position.
While specific embodiments of the invention have been described in detail, it will be appreciated by those skilled in the art that various modifications and alternatives to those details could be developed in light of the overall teachings of the disclosure. Accordingly, the particular arrangements disclosed are meant to be illustrative only and not limiting as to the scope of invention which is to be given the full breadth of the claims appended and any and all equivalents thereof.
Norton, Jeffrey M., Albert, Barry R.
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Apr 06 2006 | NORTON, JEFFREY M | AMES TRUE TEMPER, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 021330 | /0978 | |
Apr 06 2006 | ALBERT, BARRY R | AMES TRUE TEMPER, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 021330 | /0978 | |
Aug 01 2008 | Ames True Temper, Inc. | (assignment on the face of the patent) | / | |||
Sep 30 2010 | CLOPAY BUILDING PRODUCTS COMPANY, INC | GOLDMAN SACHS LENDING PARTNERS, LLC AS COLLATERAL AGENT | SECURITY AGREEMENT | 025324 | /0757 | |
Sep 30 2010 | CLOPAY PLASTIC PRODUCTS COMPANY, INC | GOLDMAN SACHS LENDING PARTNERS, LLC AS COLLATERAL AGENT | SECURITY AGREEMENT | 025324 | /0757 | |
Sep 30 2010 | AMES TRUE TEMPER, INC | GOLDMAN SACHS LENDING PARTNERS, LLC AS COLLATERAL AGENT | SECURITY AGREEMENT | 025324 | /0757 | |
Sep 30 2010 | AMES TRUE TEMPER, INC | JPMORGAN CHASE BANK, N A , AS ADMINISTRATIVE AGENT | AMENDED AND RESTATED GRANT OF SECURITY INTEREST IN PATENT RIGHTS | 025126 | /0506 | |
Mar 17 2011 | GOLDMAN SACHS LENDING PARTNERS LLC | AMES TRUE TEMPER, INC | RELEASE BY SECURED PARTY SEE DOCUMENT FOR DETAILS | 025990 | /0749 | |
Mar 18 2011 | JPMORGAN CHASE BANK, N A , AS ADMINISTRATIVE AGENT | AMES TRUE TEMPER, INC | TERMINATION AND RELEASE OF SECURITY INTEREST IN PATENT RIGHTS | 026159 | /0253 | |
Mar 18 2011 | AMES TRUE TEMPER, INC | JPMORGAN CHASE BANK, N A , AS ADMINISTRATIVE AGENT | SECURITY AGREEMENT | 026163 | /0645 | |
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